DE894374C - Coordinated electromagnetically excited dosing channel - Google Patents

Description

Coordinated, electromagnetically excited dosing channel For the transport of piece goods and bulk goods have long been known conveyor lines, their drive is caused by mechanical vibration exciter as an independent component. These conveyors can be in the room with the interposition of soft springs Suspended freely or with so-called trailing arms on a foundation frame be attached, in the latter case the trailing arm springs in general only for Vibration guidance of the conveyor line can be used. In process engineering very often the requirement is that the material to be conveyed at the same time is dosed by the conveyor. However, this is the case with the usual conveyor systems no longer possible with simple means, especially not when the dosage should experience a change during continuous operation. If you use as a drive an electromagnetic oscillating motor, which can be steplessly adjusted with simple means is adjustable, the dosage can also be changed as required during operation will.

In Fig. I of the drawing, such a dosing channel is shown in principle. The conveyor line R is guided by the trailing arm L, which in turn is about are attached to the foundation frame F at an angle of ß = 90 - 25 ". The support springs S, mostly rubber-metal elements, serve to cushion the entire conveyor unit compared to the document U.

Between the anchor A, which at a suitable angle of attack a = 25 ° on the mass to be set in vibration, the conveyor trough R, and the electromagnet M, which is connected to the foundation frame, is affected by the electromagnetic Alternating excitation forces z = Z coswt. As a vibrating width regulator is used an ohmic or inductive series resistor W, through which a stepless regulation the delivery rate is also possible during operation. Such an arrangement represents a coordinated two-mass oscillation system, its mechanical substitute scheme is indicated in FIG.

The channel R and the anchor A together form the working mass Ma of the system, which is connected via the spring L to the foundation frame F, the free mass Mf. The natural frequency of such a two-mass system regardless of whether the drive frequency fa is fed to the magnet M via a rectifier or directly, is always selected to be higher than the drive frequency. However, it is in order to avoid excessive reactive power consumption; and with a view to stable operation of the oscillation system in the vicinity of the drive frequency. In this case, the trailing arm springs L serve both to guide vibrations and to coordinate the system.

The trailing arm springs should be dimensioned so that the air gap between the armature and the magnet, both when the channel is filled and when it is empty changes.

With such dosing channels it is of crucial importance that the system is practically independent of the pieces in the channel and bulk solids. This requirement is especially important when one and the same Channel for the simultaneous conveyance and dosing of goods with very strong differences different specific weight and different damping can be used target. -This object can be achieved according to the invention in that the working amplitude is at least three times the free swing width and the maximum total exposure is dimensioned such that the double jump effect does not occur.

From Fig. 3 of the drawing, the inventive utilization of the Air gap LS between armature A and magnet M can be seen. The part for the working range sa is such that it is at least three times the free swing width Sf. This can be achieved if the free mass Mf is much greater than the working mass Ma is chosen because the amplitudes are inverse to the associated masses behave: sa: 5, = M ,: Ma.

With regard to the constancy of the conveying capacity of dosing chutes it is also necessary to ensure that when designing the gutters, when the maximum acceleration inherent in the channel does not reach the double jump area that, due to its characteristics, is discontinuous in the case of goods with low damping would result in the delivery rate.

In FIG. 4, the delivery rate V is a function of the total acceleration ß shown, for goods with different damping d. It can be seen that for materials with a damping 6 = 0.4; an only insignificant increase acceleration already brings with it a noticeable increase in conveying capacity, so that precise dosing is hardly possible. Because the discontinuity of the delivery curve becomes stronger with decreasing values for the damping 8, so the total acceleration is allowed the channel should only be dimensioned so that the working area is below the double jump area lies.

In order to ensure the utilization of the air gap according to the invention, the trailing arm springs, which are also used for coordination, are to be dimensioned in such a way that that the rest air gap experiences no change, regardless of whether the channel with the conveyed material is charged or not.

Claims (2)

PATENT CLAIMS I, constant frequency tuned Electromagnetically excited dosing channel with infinitely variable oscillation width control, thereby characterized in that the working swing width is at least three times the free swing width is, the total acceleration is such that the double jump effect does not occur. 2. Dosing channel according to claim I, characterized in that the rest air gap between armature and magnet - - remains constant even when the channel is loaded. Cited publications: German patent specification No. 725 833.